Seed extractor



Oct. 25, 1949, e 1 PEEL 2,485,653

SEED EXTRACTOR 7 Filed Se t. 2} 1947 -6 Sheets-Sheet 1 iil 5 FIG. I

WxQGPMe 0a. 25, 1949. w. D. PEEL 2,485,653

4 SEED 'EXTRAQTOR Filed Sept. 2, 1947 6 Sheets-Sheet 5 I INVENTOR. WM @a W. D. PEEL SEED 'EXTRACTOR Oct. 25, 1949.

Filed Sept. 2, 1947 6 Sheets-Sheet 4 I IN VEN TOR.

B ah/1x5 Q W 5 flflrfley FIG. 5

Oct. 25,1949. w. D. PEEL SEED EXTRACTOR Filed Sept. 2, 1947 6 Shee'ts-Sheet 5 2? 7 if l WE:

o o 7/ o O F IG.

I7 INVENTOR.

W. D. PEEL SEED EXTRACTOR 6 Sheets-Sheet 6 Filed Sept. 2, 1947 FIG.22

INVENTOR.

I WW 9 0M FIG.25

Patented Oct. 25, 1949 UNITED STATES.

PATENT OFFICE.v

17 Claims.

This invention rel ates to improvements in seed extractors or fruit. pitters, and provides a new; rapid effici'ent, clean: and sanitary method of removing the seeds from fruits, particularly from evaporated fruits of the date and prune variety.

Fruit pitters have long been known but are gen erall y of the hand operated type, some of which operate through a gripping action and others by turning a crank. However, my invention involves a new principle including a power driven machine which feeds the fruit to the machine, places the fruit in a definite position and centers the fruit, forces the pit out of the fruit, blows the pit clear, then follows by ejecting the fruit and blowing away any" fragments to keep the machine relatively clean and free from gummy substances from the fruit.

This machine is automatic in action. and requires no attention other than that of maintain-- ing a supply of the fruit in a hopper. The fruit is fed selectively, one-at a time, the fruit-dropping into the machine and being up-endedand then centered, following which a main plunger moves axially toforce the pit through the bottom end of the fruit, followed by an internal plunger and a blast of air through the main plunger to clear the pit from the fruit support, and finally, with retraction of the support from under the fruit and opening of the centering means, a. blast. oiv air drives the fruit through to: clear the machine and clears away any fragments of fruit, followed immediately by closing of the support for the next single fruit.

The objects and advantages of the invention are as. follows First, to provide a machine for automatically removing the pits endwise from. relatively elongated fruits.

Second, to provide a. power operated machine into which individual fruits fed sequentially are located, centered and. held in a predetermined position for ejection of the pit lengthwise of the fruit.

Third, to provide a machine as outlined which automatically locates and centers individual specimens of fruit, forces the pit out through the end of the fruit, ejects the pitted fruit, and cleans the fruit engaging parts of the machine of fragments of fruit.

Fourth, to provide a. machine as outlined with combined plunger and air jet. ejecting means for the fruit pits.

Fifth, to'prov-ide a machine as outlined with air jet ejecting means-for ejecting the pitted fruit.

Sixth, to provide a machine as outlined. with rotative centering-means: for locating and centering: the fruit, converted into stationary holding means: when. the fruit is located and centered, and. returned to rotative means for ejection of the pitted fruit and particles thereof and accompanied by an air blast for ejection.

Seventh, to provide a machine as outlined which is. positive in action under normal operating, conditions. but which is sufficiently resilient l0- to prevent-damage to. fruits. or damage to the main the event of overloading due to multiple feeding of fruit or other causes.

Eighth, to provide a machine as outlined which is relatively simple in. construction, rapid in op eration, adjustable. for different types of fruits, with the various elements: easilyassembled and disassembled or replaced for repairs or to accommodate' difl'lerent types of fruits.

In. describing the invention reference will: be

made to; the accompanying: drawings, in which:

Fig. 1 is a side elevation of the invention with some duplicate parts removed and others shown in section to clearly show therelationship between the various elements- Fig. 2 is a. section: taken on; line 2-2 of Fig. 1.

Fig. 31 is a. fragmentary view showing the relationship: between various operating parts which operate and control the locating, centering and ejecting devices.

Fig. 4 is an end elevation of the air control valve for controlling operationof the plunger and air blasts,

Fig. 5 is a sectional elevation through the in- Fig. o is. a view taken in the direction 6-6 of Fig- 5.

Fig. '7 is an inside view of one of the locating, centering and holding rollers.

Fig. 8 is a. side elevation of one of the gauges for directing, the fruit between the centering rollers.

Fig". 9' is an enlarged plan. View of the piston head valve for controlling the internal ejection plunger.

Fig. 1.0 is a plan. view of the machine base.

Fig. IL is. a side elevation of Fig. 10.

Fig. 12 is a top plan View of the fruit support operating head.

Fig. 13 is: aside elevation of Fi 12. b Fig- 14 is: a top plan view of the fruit support ase.

Fig. 1 5 is aside elevation of Fig. 14.

Fig... 1 .6 is a. topplan view of the roll operating 55 head.

Fig. 17 is a side elevation of Fig. 16.

Fig, 18 is an enlarged plan view of the keeper and key means for coupling the tubular shafts to the interior roller driving shafts.

Fig. 19 is an enlarged sectional elevation through the cylinder mounting means and plunger bearing.

Fig. 20 is an enlarged sectional elevation through the piston.

Fig. 21 is an enlarged fragmentary view showing the rollers in closed position.

Fig. 22 is a view similar to Fig. 21 except showing the rollers in upwardly divergent open posi tion.

Fig. 23 is a plan view of the gate table showing the gates in closed position and the relative position of the rollers in closed position, and also showing the stationary guards between the rollers.

Fig. 24 shows a modification of the rollers in which vertical flutes are formed, and

Fig. 25 shows another modification in which the rollers are formed with a concave face.

The invention includes a base, a head, tie rods connecting the base and head, a cylinder and piston and compressed air control and distributing means, a retractable fruit support and operating means therefor, locating and centering means for the fruit, a dual plunger for. the piston and operating as the pit ejector, and driving and timing means and a platform support for the entire machine.

The frame of the machine includes a platform support 25 for support of the various units and driving means on which is supported a base 25 having tie rod holes 21 and 28 for the combined standards and tie rods 29 which are fixedly secured in the base; the base having a central passage 30 for passage of the pits and fruits when ejected; an aligning passage 3| being formed in the platform support, a suitable selector being provided for selective transfer of the pits and pitted fruits to separate receptacles.

Mounted on the upper ends of the tie rods is a combination head, cylinder support and gear box 32 which is separable as indicated at 33 and in cluding a housing 34 and cap 35; the base being secured to the upper ends of the tie rods and the cap being secured to the base by conventional means such as by screws.

This housing contains an intermeshing set of four driving gears 35 and four idlers 31 forming a complete circular train within the housing, a gear passage 38 being provided through one side of the housing for the drive gear 39, and this housing is provided with a depending hub 40 for reception of the lower end of the cylinder 4|, a passage 42 being axially formed through the cap for this cylinder. The driving gears 36 are each mounted on a hollow shaft 43 having a drive shaft 46 rotatable therein; the hollow and sliding shafts each having a diametric keyway 45 formed therein for a special key and keeper 46 which is formed as indicated in Fig. 18, the portion 41 functioning as a key which is slidable in the diametric keyways 45 to lock the hollow and drive shafts together while permitting sliding action of the inside shaft.

The cylinder H is mounted on a special bottom cap 48 which has a rubber facing 49 to function as a bumper and seal, and this cap rests on a special block 59 which fits in the hub 40 and has a pipe tap 5I terminating in a passage 52 alignable with the passage 53 in the cap 48. A piston rod seal 54 is secured between the cap 48 and 4 the bottom 55 of a recess formed in the block and simultaneously seals the end of the cylinder and functions as packing for the plunger 56. A suitable bushing 57' is provided for the plunger, this bushing projecting below the hub for mounting of the fruit ejection jet 58.

The cylinder head 59 is sealed to the upper end of the cylinder and has an air connection 60 communicating with the upper end of the cylinder as shown and is provided with a resilient bumper 6| to absorb the shock of the pistonwhen the piston reaches its upper limit of travel, and the [cylinder head, cylinder, and base block are secured into a rigid unit by means of bolts 62 preferably secured by means of knurled nuts 63.

The piston includes a piston block 64 having an integral hub 65 projecting upwardly and an integral plunger 56 extending down through the bushing 51, this plunger having a through bore 66, a first counterbore 61 and a second counterbore 68, and having an internal plunger 69 operating therein freely, this plunger being enlarged at 16 for added strength and terminating in a piston I I. A pair of opposed cup washers 12 are secured between the top shoulder on the piston block and a ring 13 is capped by a rubber or other resilient washer I4 and it in turn capped by a valve head 15, the valve head being secured for veryslight axial movement by screws 76 which anchor in the anchor ring I1, with intervening spacers TI.

Secured on the bushing 51 is a sleeve 78 which surrounds the plunger and extends downwardly and has an air connection 19 though this jet 18 could be made integral with the bushing if desired.

The fruit supporting means consists of the fruit support-operating head 86 which has diametric passages St for the tie rods 29, and diametric lugs 82 for the terminal ends of the actuating yoke 83 which is coupled thereto at 84 this head having equally spaced cars 85 in which one end of the bellcrank levers 86 are pivotally secured as indicated at ill; the fruit supporting head 88 which has pairs of ears 89 alignable with the pairs of ears on the member'ilil and having the bellcrank levers intermediately pivoted therein as indicated at 90, this head 68 being secured in position on the tie rods as indicated at 9i and therefore being immovable, the tie rods passing through the passages 92.

A housing 93 is mounted on top of the head 89 and includes a series of slides 96 having connection with the other ends of the bellcrank levers as indicated at 95, and each of these slides has a projecting resilient member 96 which close the passage 9'! and form a resilient support for the fruit 98.

Slideways 99 are mounted on top of the housing 93 and each carries a slide I99 having a depending ear Iill and the slideways have each an upwardly projecting ear I92, and an operating head I03 for these slides is slidable on the tie rods through passages Hi4, this operating head having resilient connection with the member 89 through connecting rods I05 which at their lower ends are connected to the yoke I96 with a shoulder I01 formed near the upper end, and with the reduced portion thereabove slidable in the passages l 98 and terminating in a threaded end provided with a knurled thrust nut I69 with inter-.- vening compression spring l m.

Bellcrank levers III are intermediately pivoted to the upstanding ears I92 as indicated at IE2 and having one arm pivoted in the depending ears H3v as indicated at H4, and with the other arm pivotally' connected to the slide I a indicated at I I5.

The slides I00 each have an inwardly projecting ear I I6 to which is pivoted the roll carrier I I1 as indicated at 8 and which carries the locating and centering roller II-H which is pivoted at the lower end. as indicated at I and has peripheral support in the carrier I11, the upper end of the roller having a flexible driving connection I28 with the. inner drive shaft 44, the respective ends of the shaft being fixed respectively in the upper end: of the roller and in thellower end of the inner shaft 44 The rollers are formed to suit the specific type of fruit to be pitted, which may require c-oncaved rollers as indicated in Fig. 25 where the fruit is well rounded, or with more fiat fruits, may require vertical teeth as indicated in Fig. 24, or any combination of the several types, the type shown: in the principal drawings with the annular' teeth being the most commonly used type.

The control mechanism for controlling operation of the various mechanical elements includes a motor I29 having a speed reduction at I with the slow speed shaft I-SI driving a cam shaft I52 through sprockets I33 and I34 and chain I35, and also driving a shaft I35 through the bevel gears I31 which shaftin turn is. slidably coupled to a shaft. I38 through a suitable coupling or clutch I39 to permit retraction of the shaft to a slight degree, and this last shaft has one element I45 of a friction clutch, the other friction clutch element I II being mounted on the end of another shaft I 42 which drives the vertical shaft I43 through bevel gears I46 and which vertical shaft has the gear 39' secured at the upper end.

The clutch II4I is controlled by a cam I through an arm M5 which is connected to the rocker shaft I41 and which has a yoke I45 mounted onthe other end and which spans the shaft I38 1 and cooperates between a ball bearing M9 and thrust collar I55. A second collar I'5I encompasses the shaft and is tied to a forward bearing I52 through a rod I which is readily unhooked and is adjustable by a nut I54 for tension.

The lower operating head 85 is operated by a cam- I55 through a yoke 34 which is of the breakarm type or in other words resiliently coupled intermediately at the pivot point I58 and urged together by a spring I55 which is adjustable as to tension by a screw I51, which in case of overload will allow the yoke to break or give at the pivot point I-58 to prevent damage to any part of the machine, and this yoke also has a lifter spring I59 for normally raising the yoke and the head 85, while the yoke I55 is rigid, the resiliency being provided through the springs III], and is actuated by the cam I60, with a spring I81.

The air distributing system consists of a distributor valve I51 which is coupled to a source of air under pressure as indicated at I62 there being three supply valves I53 with outlets I54 connected through the tubes I55, I55 and I51 respectively to the head of the cylinder at I58, to the base of the cylinder at I59, and to the jets 58 at I15; and two discharge valves I1I discharging to atmosphere through the outlets I 12.

The valves I63 and HI are respectively actuated. by cams I13, I14, I15, I16 and I11 through levers I18, these cams all being mounted on the cam shaft I32.

Feeding means for feeding one fruit at a time includes a chute I19 and a screw conveyor I80 which is arranged to feed only one fruit at a time to discharge through the chute into the space be- 6. tween. the rollers, and driven at such speed as'to discharge one fruit for each. cycle of. operation of the machine.

The operation of the invention is at. follows: At the start of a cycle of operations, the head I53 is in its highest position and urged to that position by the spring I8I. with the roller I82 riding on the low side I83 of the roller actuating cam. Hill; the head is in its lowermost position with the roller I84: riding on the high side of the gate closing cam, the four sectors 55 of the gate being closed as indicated in Fig. 23. These gate sectors are formed of. live rubber or other resilient material and: form the support for the fruit as it is dropped from the chute. With the head I03 in its highest position, the locating and centering rolls H5 are in the retracted and upwardly divergent position illustrated. Fig. 22.

The gauges, Fig. 8 are adjusted through the medium of the clampscrew I85 which secures the blade I85 carrying the gauge I81 in the frame. I85,

the frames being secured in. position on the gate housing 94 by means of knurled head screws I285, the gauges I81 beinglocated at points between. the rollers when the rollers are in open position as indicated in Fig. 22. The plungers 5.5 and 529 are both in their highest position,.with the valve head 15 abutting against the rubber liner 5 I. of the cylinder head.

The motor I29 is driving the shafts I3I, I52 and. I39 continuously, and the lever' arm I45 is riding the low side of the clutch actuating cam I45, and the spring I is urging the clutch element I 35 to cooperate with the mating clutch element MI, thus driving the shaft M3, and gear 55 to drive the train of gears 36, 31- the gears 35 driving the rollers H9 through the flexible shafts I25. The valve I13. to the head of the cylinder is closed and the exhaust valve open; the supply valve to the lower end of the cylinder is closed and its exhaust valve closed, and the valve to: the jet 58 is also closed, and air is admitted through the passage I to the second counterbore E1 continuously, and the piston I92 is in its uppermost position.

Starting from this position, a-fruit I53 drops down into the chute I19 and thence into the enclosure formed by the opened series of rollers I I9 and guards I81, the rollers are rotating continuously, the head I03 is depressed through the action of the cam I65 acting through the connecting rods I05, under the tension of springs I It, depressing the arms I94 of the bellcrank levers and through the other arms righting the rollers to the position shown in Fig. 21 and forwarding the rollers into contact with the fruit, the rollers continuously rotating the fruit as they close in to orient the fruit, and when these rollers have reached their limit of movement, the clutch I 15- I II is disengaged, the rollers then remaining stationary.

When this stage is reached, the valve to the head of the cylinder is opened and the lower end of the cylinder is exhausted through its exhaust valve. This drives the piston with its plunger down and through the fruit, forcing the seed through the resilient gate which permits the seed to pass through while holding the fruit.

When the piston has reached the lower end of the cylinder, the ring 11 contacts the rubber washer 49 so that in the final movement of the piston, the piston leaves the valve head which remains stationar and. admits air under pressure from the cylinder between the valve head and the rubber valve seat 14 to act on the piston I22, driving the inside plunger through the end I55 of the main plunger and down through the intersection of the gate segments to positively clear the gate of the seed, and immediately the exhaust valve opens to the upper end of the cylinder and the supply valve is opened to the lower part of the cylinder. The air under pressure passes through the passage l9l into the second counterbore, forcing the piston I92 to the top of the main piston and against the valve head, retracting the inside plunger 69 and simultaneously retracting the main plunger by forcing the main piston to the top of the cylinder; air under pressure within the cylinder discharges through the main plunger about the inside plunger to blow the seed clear with a sharp blast of air, and as the plunger starts to retract from the pitted fruit, the rollers again start spreading to the position shown in Fig. 22 and simultaneously start rotating to free the fruit from the plunger and rollers, and, as the rollers release the fruit, the gate opens and a blast of air through the jet 58 forces the fruit through the gate opening and free of the rollers, and immediately thereafter the supply of air to the jet 58 is terminated, with the machine ready for the next fruit element.

As the gates start to open and the rollers start to retract, the downward movement of the member 8% draws down the pivotal point [96 of the deflector l9! while the arm I98 is held stationary by the tie rod I99, thus moving the deflector to the opposite position from that shown in Fig. 1, to discharge the fruit to a different receptacle (not shown) from that to which the seed was forwarded.

As will be noted in Figs. 1 and 12, the deflector is mounted on a pivot or shaft on which the lever I 98 is also fixed, and this shaft is reciprocal in the bearings 2% and 2M, the bearing 20!! being integral with or mounted on the member 80, while the bearing 26! is formed at the end of a bracket 202, this being the simplest way of mounting and operating the deflector for segregation of the fruits and pits, though not limited to this specific structure or method of operation.

Thus the cycle of operations includes: Closing of the gate or fruit support, closing of the rollers on the fruit while the rollers rotate constantly, terminatin rotation of the rollers as soon as they have closed on the fruit and depressing the main plunger to force the seed out of the fruit, actuating the inside plunger to clear the seed through the gate and immediately retracting the inside plunger and blasting the seed with air to clear the gate and immediately retracting the main plunger, retracting the rollers and simultaneously initiating rotation to clear the rollers from the fruit and openin the gates or fruit supports and and driving means for coincidently rotating said rollers to orient said fruit in said upright position, means for terminating rotation of said rollers when said rollers reach their most advanced position, and for initiating rotation of said rollers following operation of said plunger to free the fruit from the plunger and from the rollers and with said reversible actuating means coincidently retracting said rollers to their normal retracted position.

2. A fruit pitter, in combination; means for 10- eating, centering and holding a fruit in upright position; a plunger and operatin means therefor for forcing the seed out of the fruit; and means for ejecting the pitted fruit, said plunger including an internal axial plunger operable when said plunger reaches its lowermost position of travel, with said internal axial plunger advancing beyond the lower end of said plunger to clear the seed from the fruit and including a passage for air under pressure to provide a blast of air from the end of said plunger to clear the retractable flexible support of fragments of fruit.

3. A fruit pitter, in combination; means for locating, centering and holding a fruit in upright position; a plunger and operating means therefor for forcing the seed out of the fruit; and means for ejecting the pitted fruit; said plunger and operating means therefor comprising a cylinder, a piston having an integral hollow plunger and an internal plunger operable within said integral plunger and normally retracted and extending throughout the length thereof and freely fitting within said hollow plunger to provide an air passage, and compressed air distributing means for driving said integral plunger to its lowermost position followed by driving said internal plunger beyond the lower end of said init through the gate aperture and free of the gate and to clean the rollers of adhering particles.

The friction between the cup leather piston rings and the walls of the cyinder is sufficient to retain the piston and plunger in its topmost position, the air supply being out off from the lower part of the cylinder as soon as the piston reaches the upper end of the cylinder.

I claim:

1. A fruit pitter, in combination; means for locating, centering and holding a fruit in upright position; a plunger and operating means therefor for forcing the seed out of the fruit; and means for ejecting the pitted fruit; said means for 10- cating, centering and holding a fruit comprising tegral plunger, and returning said internal plunger to its raised position within said integral plunger and providing a blast of air through the end of said integral plunger, and returning said integral plunger to its raised position.

4. A fruit pitter, in combination; means for 10- eating, centering and holding a fruit in upright position; a plunger and operatin means therefor for forcing the seed out of the fruit; and means for ejecting the pitted fruit, said means for locating, centering and holding a fruit comprising a retractable flexible support for the fruit, a circular series of vertical rollers normally in retracted position for free reception of a fruit therebetween and reversible actuating means for advancing said rollers toward a common center and driving means for coincidently rotating said rollers to orient said fruit in said upright position, means for terminating rotation of said rollers when said rollers reach their most advanced position, and for initiating rotation of said rollers followin operation of said plunger to free the fruit from the plunger and from the rollers and with said reversible actuating means coincidently retracting said rollers to their normal retracted position, said plunger including an internal axial plunger operable when said plunger reaches its lowermost position of travel, with said internal axial plunger advancing beyond the lower end of said plunger to clear the seed from the fruit and. including a passage for air under pressure to provide a blast of air from the end of the plunger to clear the retractable flexible support of fragments of fruit.

5. A fruit pitter, in combination; means for cating, centering and holding a fruit in upright position; a plunger and operating means therefor for forcing the seed out of the fruit; and means for ejecting the pitted fruit; said means for locating, centering and holding a fruit comprising a retractable flexible support for the fruit, a circular series of vertical rollers normally in retracted position for free reception of a fruit therebetween and reversible actuating means for advancing said rollers toward a common center and driving means for coincidently rotating said rollers to orient said fruit in said upright position, means for terminating rotation of said rollers when said rollers reach their most advanced position, and for initiatin rotation of said rollers following operation of said plunger to free the fruit from the plunger and from the rollers and with said reversible actuating means coincidently retracting said rollers to their normal retracted position; said plunger and operating means therefor comprising a cylinder, a piston having an integral hollow plunger and an internal plunger operable within said integral plunger and normally retracted and extending throughout the length thereof and freely fitting within said hollow plunger to provide an air passage, and compressed air distributing means for driving said integral plunger to its lowermost position followed by driving said internal plunger beyond the lower end of said integral plunger, and returning said internal plunger to its raised position within said integral plunger and providing a blast of air through the end of said integral plunger, and returning said integral plunger to its raised position.

6. A fruit pitter comprising; means for supporting a fruit, means for orienting, centering, and holding said fruit in a predetermined position, and a plunger and operating means therefor for fOlClng the seed through the fruit and for ejecting the pitted fruit; said means for supporting a fruit comprising a plurality of flexible radial gate members, and means for radially advancing and retracting said flexible gate members, for advancing said gate members to form a complete closure to support the fruit; said gate members deflecting under pressure to pass the seed, and being retracted by said means for advancing and retracting to provide an unobstructed passage for ejection of the fruit following operation of said plunger; said means for orienting, centering and holding comprising a circular series of rollers retractable for reception of a fruit therebetween and advanceable to close in and hold the fruit, and rotatable during advancing movement to orient and center the fruit, and during retractive movement to free the fruit from the plunger during withdrawal and from the rollers, and actuating means for advancing and retracting said rollers and for rotating said rollers.

7. A structure as defined in claim 6; said means for actuating including means for retracting said rollers to a divergent position for free reception of a dropping fruit and returning said rollers to a parallel position with the initial advance movement of the rollers.

8. A structure as defined in claim 7; and guides interposed between the respective rollers when in retracted position to guard the spaces between the retracted rollers for retention of the fruit within cooperative relation to the group of rollers.

9. A structure as defined in claim 8; said plunger and operating means therefor comprising a cylinder'and a piston with said plunger integral with said piston, and a supply of air under pressure and control means therefor for depressing said plunger to force the seed through the fruit when said fruit is held in the predetermined position, and to return the plunger to its initial position.

10. A structure as defined in claim 9; said plunger having an axial bore terminating in a counterbore at the upper end and a second plunger freely slidable in said bore and terminating in a second piston operating in said counterboreand a valve for bypassing air from said cylinder to said second piston to project said second plunger from the lower end of said plunger to project the seed clear of the fruit when said piston approaches its limit of down travel.

11. A structure as defined in claim 10, a passage formed through said plunger into said counterbore below said second piston to pass air under pressure from the lower end of said cylinder to raise said second piston and second plunger and to provide a blast of air to clear the fruit holding and supporting area of fragments of fruit.

12. A structure as defined in claim 11, a sleeve surrounding the initial projecting portion of said plunger and having an air connection and control means therefor, for providing a blast of air to discharge the fruit and to clear the rollers of fragments of fruit.

13. In a fruit pitting machine; a support having a discharge opening and a flexible gate for covering and uncovering said opening and means for retracting and advancing said gate to respectively uncover said opening for discharge of a fruit and to cover said opening for support of the fruit; a circular series of rollers mounted on vertical axes over said support and advanceable toward the axis of said opening to hold the fruit, and retractable from said axis to freely receive the fruit, and means for advancing and retracting said rollers, and means for rotating said rollers during advancive and retractive movements for respectively orienting the fruit and for freeing the fruit for discharge; the lower ends of said rollers being closely related to said support to grip the fruit throughout the major portion of its length.

14 A structure as defined in claim 13; means inclining said rollers outwardly at the upper end when said rollers are retracted for free acceptance of a fruit therebetween from above.

15. Means for orienting, locating and centering a single fruit for pitting comprising; a support for the fruit; a circular series of rollers mounted on vertical axes, about a common center over said support, and means for retracting said rollers relative to said common center and moving coincidently inclining said rollers to an upwardly divergent position relative to said common center for free acceptance of a single fruit; means for advancing said rollers toward said common center to locate and center said fruit, and means for coincidently rotating said rollers to orient said fruit in a predetermined position over said common center, and for rotating said rollers during retraction to free the fruit for discharge; the lower ends of said rollers being closely related to said support for gripping the fruit throughout the major portion of its length when the rollers are in their advanced position.

16. A structure as defined in claim 15; a plunger having a through bore terminating at its upper 1 1 end in a counterbore and an internal plunger freely slidable in said bore and terminating in a piston slidable in said counterbore and means for depressing said plunger to force the seed through the fruit, and for returning said plunger to its uppermost position, and. compressed air and control means therefor for depressing said internal plunger to project beyond the lower end of said plunger when said plunger has reached its lowermost position, and to raise said internal plunger and to discharge a blast of air under pressure through the passage in the fruit during the initial period of returning said plunger to its uppermost position.

17. A structure as defined in claim 16; a jet surrounding said plunger and having a compressed air connection and control means therefor for delivering a blast of air to discharge the fruit and to clear the rollers of fragments of fruit.

WIR'I D. PEEL.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS 

